RU2011103938A - CONTROL OF ACOUSTIC ECHO SIGNALS BASED ON THE TIME AREA - Google Patents

Abstract

 1. A method for processing a signal implemented by a processor, the method comprising the steps of:! (a) determining (e.g., 202, 204, 206), in the time domain, what magnitude of the acoustic echo signal should be suppressed in the signal; and! (b) processing (e.g., 208) a signal in the time domain based on determining what magnitude of the acoustic echo signal should be suppressed. ! 2. The method according to p. 1, in which:! - step (a) comprises the step of generating an amplification value to apply to the signal, according to how much acoustic echo signal should be suppressed in the signal; and! - step (b) comprises the step of applying a gain value to the signal. ! 3. The method of claim 2, wherein step (a) comprises the steps of:! (a1) generating (for example, 202, 204, 242, 244, 246) a counter value indicating how long the acoustic echo is detected in the signal without detecting a simultaneous conversation; ! (a2) comparing (e.g., 248) a counter value with a specified counter threshold value; and! (a3) adjust (e.g., 250, 252) the gain value based on the comparison of step (a2). ! 4. The method of claim 3, wherein step (a3) comprises the steps of:! (a3i) reduce the gain value to zero if the counter value is determined to exceed a specified counter threshold value; and! (a3ii) increase the gain value to unity if the counter value is determined to be less than the specified counter threshold value. ! 5. The method of claim 3, wherein step (a1) comprises the steps of:! (a1i) form (e.g., 226) an echo reflection loss value (ERL) for the signal; ! (a1ii) compare (e.g. 232) the ERL value with the indicated thresholds�

Claims (17)

1. Implemented using a processor method for processing a signal, the method comprises the steps of: (a) determining (e.g., 202, 204, 206), in the time domain, what magnitude of the acoustic echo signal should be suppressed in the signal; and (b) processing (e.g., 208) a signal in the time domain based on determining what magnitude of the acoustic echo signal should be suppressed. 2. The method according to p. 1, in which: - step (a) comprises the step of generating an amplification value to apply to the signal, according to how much acoustic echo signal should be suppressed in the signal; and - step (b) comprises the step of applying a gain value to the signal. 3. The method of claim 2, wherein step (a) comprises the steps of: (a1) generating (for example, 202, 204, 242, 244, 246) a counter value indicating how long the acoustic echo is detected in the signal without detecting a simultaneous conversation; (a2) comparing (e.g., 248) a counter value with a specified counter threshold value; and (a3) adjust (e.g., 250, 252) the gain value based on the comparison of step (a2). 4. The method of claim 3, wherein step (a3) comprises the steps of: (a3i) reduce the gain value to zero if the counter value is determined to exceed a specified counter threshold value; and (a3ii) increase the gain value to unity if the counter value is determined to be less than the specified counter threshold value. 5. The method of claim 3, wherein step (a1) comprises the steps of: (a1i) form (e.g., 226) an echo reflection loss value (ERL) for the signal; (a1ii) comparing (e.g., 232) an ERL value with a specified ERL threshold value; (a1iii) form (e.g., 222) a signal level value for the signal; (a1iv) comparing (e.g., 230) a signal level value with a specified threshold signal level value; and (a1v) detect (e.g., 232) that an acoustic echo is present in the signal without detecting a simultaneous conversation based on (i) comparing step (a1ii) and (ii) comparing step (a1iv). 6. The method of claim 5, wherein step (a1v) comprises detecting that an acoustic echo is present in the signal without detecting a simultaneous conversation if (i) the ERL value exceeds the specified threshold ERL value, and ( ii) the signal strength value exceeds the specified threshold signal strength value. 7. The method according to p. 1, in which: - the signal is an incoming signal received at a subscriber unit at the near end; - an acoustic echo signal is generated by the microphone of the subscriber unit at the far end based on sounds generated by the speaker of the subscriber unit at the far end, based on the outgoing signal transmitted from the subscriber device at the near end to the subscriber device at the far end; and - step (a) comprises the step of comparing the incoming signal with the outgoing signal in the time domain in order to determine how much acoustic echo should be suppressed in the incoming signal. 8. The method of claim 7, wherein step (a) comprises the steps of: (a1) determining, in the time domain, the amount of delay in the synchronization of the acoustic echo signal relative to the synchronization of the outgoing signal; (a2) hold a copy of the outgoing signal by a certain amount of delay; (a3) form, in the time domain, an echo reflection loss value (ERL) based on (i) a signal level of a delayed copy of an outgoing signal and (ii) a signal level of an incoming signal; and (a4) use the ERL value to determine, in the time domain, what magnitude of the acoustic echo signal should be suppressed in the signal. 9. A device comprising a processor configured to process a signal, the device comprising: - a detector of acoustic echo signals (for example, 202, 204, 206), configured to determine, in the time domain, what magnitude of the acoustic echo signal should be suppressed in the signal; and an acoustic echo controller (e.g., 208), configured to process the signal in the time domain based on determining what magnitude of the acoustic echo should be suppressed. 10. The device according to p. 9, in which: - the acoustic echo detector is configured to generate a gain value to be applied to the signal, according to what magnitude of the acoustic echo signal should be suppressed in the signal; and - the controller of the acoustic echo signals is configured to apply a gain value to the signal. 11. The device according to p. 10, in which the detector of acoustic echo signals is configured to: - generate (for example, 202, 204, 242, 244, 246) a counter value indicating how long the acoustic echo is detected in the signal without detecting a simultaneous conversation; - compare (for example, 248) the value of the counter with the specified threshold value of the counter; and - adjust (for example, 250, 252) the gain value, based on a comparison of the counter value with the specified threshold counter value. 12. The device according to claim 11, in which the detector of acoustic echo signals is configured to: - reduce the gain value to zero if the counter value is defined as exceeding the specified threshold value of the counter; and - increase the gain value to unity if the counter value is determined to be less than the specified threshold value of the counter. 13. The device according to claim 11, in which the detector of acoustic echo signals is configured to: - generate (for example, 226) the value of the reflection loss of the echo signal (ERL) for the signal; - compare (for example, 232) the value of the ERL with the specified threshold value of the ERL; - generate (for example, 222) the signal level value for the signal; - compare (for example, 230) the signal level value with the specified threshold signal level value; and - detect (for example, 232) that the acoustic echo is present in the signal, without detecting a simultaneous conversation, based on (i) comparing the ERL value with the specified threshold ERL value and (ii) comparing the signal level value with the specified signal level threshold value. 14. The apparatus of claim 13, wherein the acoustic echo detector is configured to detect that an acoustic echo is present in the signal without detecting a simultaneous conversation if (i) the ERL value exceeds the specified threshold ERL value, and (ii ) the signal level exceeds the specified threshold signal level. 15. The device according to p. 9, in which: - the signal is an incoming signal received at a subscriber unit at the near end; - an acoustic echo signal is generated by the microphone of the subscriber unit at the far end based on sounds generated by the speaker of the subscriber unit at the far end, based on the outgoing signal transmitted from the subscriber device at the near end to the subscriber device at the far end; and - the acoustic echo detector is configured to compare the incoming signal with the outgoing signal in the time domain to determine how much acoustic echo should be suppressed in the incoming signal. 16. The device according to p. 15, in which the detector of acoustic echo signals is configured to: - determine, in the time domain, the amount of delay in the synchronization of the acoustic echo signal relative to the synchronization of the outgoing signal; - hold a copy of the outgoing signal by a certain amount of delay; - generate, in the time domain, the echo reflection loss value (ERL) based on (i) the signal level of the delayed copy of the outgoing signal and (ii) the signal level of the incoming signal; and - use the ERL value to determine, in the time domain, what magnitude of the acoustic echo signal should be suppressed in the signal. 17. The device according to claim 9, wherein the device is an integrated circuit.